Shoulder sling with means for anchoring equipment

ABSTRACT

A leash is described. It includes a length of strap extending between a first and a second end along a longitudinal axis. The strap is folded along the longitudinal axis to form a loop. The leash also includes a strap length adjustment mechanism attached to the strap intermediate the loop and a terminating end of the strap, wherein the terminating end is attached to attachment hardware configured to reversibly receive a collar of an animal. The adjustment mechanism has a length fixing configuration and an adjustment configuration, wherein the length fixing configuration is configured to prevent changes in the lengths of the loop of strap and the length of slack strap, and wherein the adjustment configuration is configured to allow for adjustment of the diameter of the loop of strap and the length of slack strap.

PRIORITY

This application claims priority as a continuation of U.S. applicationSer. No. 16/792,416, filed on Feb. 17, 2020, presently pending, whichwas in turn a continuation-in-part of U.S. non-provisional patentapplication Ser. No. 16/056,697, filed Aug. 7, 2018, issued as U.S. Pat.No. 10,561,226 on Feb. 18, 2020, the entirety of which is incorporatedherein by reference.

BACKGROUND OF THE INVENTION 1. Field of the Invention

This invention relates to a shoulder sling for carrying equipment, andmore specifically, this invention relates to a camera sling with meansto reduce the swinging of a camera during periods of activity.

2. Background of the Invention

Many devices exist for attaching a camera to a user, with slings andharnesses being the most popular currently at the time of thisapplication. State of the art camera slings and harnesses feature camerasliders. These sliders attach slidably to the harness or sling at oneend and to a camera at the other. This configuration allows the camerato hang securely and hands-free from a harness or sling while not in useand enables a user to grab the hanging camera and slide it up to ashooting position with no lag time.

The invention of these camera harnesses and slings with camera slidersimproved on the convenience of previous carrying devices by providinghands-free carrying of cameras without requiring a user to detach acamera from the carrying device before shooting. With the freedom ofmovement of the camera sliders offered by these state of the art slingsand harnesses also came a disadvantage. As the camera sliders allow easymovement along the length of a camera sling and harness, the camerastend to swing and bounce during periods of high activity of a user,representing danger to the attached cameras and accessories. This isespecially true for photographers who are walking or hiking uneventerrain in pursuit of a subject or otherwise following the movements ofan active subject.

Thus, a need exists in the art for a system for reversibly anchoringcameras attached to a camera sling or harness to reduce camera movementwhile not in use. Ideally, the apparatus would reduce the movement of ahanging camera while not in use but allow for quick release to ashooting position.

Similarly, many leash systems and methods exist for limiting the rangeof mobility of dogs and other animals. Handheld leashes are the mostpopular variety of leash with state of the art leashes having variousmodifications for convenience and comfort. However, state of the artleashes are little more than lengths of strap that reversibly attach tothe collar of an animal. These leashes do not take into account that auser may have the need or the desire for the use of both of their handswhile still keeping the leashed animal near them.

Thus, a need exists in the art for an animal leash system that servesthe same purpose of state of the art leashes without the need to requirethe use of one or both of a user's hands. Ideally, the leash systemwould limit the movement of a dog or animal away from a user whileallowing free movement of a user's hands.

SUMMARY OF INVENTION

An object of the invention is to provide an apparatus for reversiblylimiting the movement of a camera hanging from a camera sling toovercome the disadvantages of the prior art.

Another object of the present invention is to provide an apparatus forquickly and reversibly limiting the movement of a camera hanging from acamera sling on camera sliders. A feature of the invention is ananchoring means featured on or near the waste of a user. An advantage ofthe apparatus is that its proximity to an inactive camera hanging from acamera sling allows for rapid attachment and detachment of the anchoringmeans to the camera.

Another object of the present invention is to provide a means forlimiting the movement of a camera hanging on a camera slider from acamera harness without need for complicated or awkward camerapositioning. A feature of the invention is that the anchoring means canquickly and easily be attached to a hanging camera with minimal movementof the camera. An advantage of the invention is that this rapidattachment allows a user to begin active movements following a subjectwithout wasting time awkwardly positioning a camera into a stableposition. Similarly, an advantage of the invention is rapid detachmentof the anchoring means from a hanging camera. A feature of the inventionis that one hand movement can release the anchoring means and releasethe camera to a free-shooting configuration.

Yet another object of the present invention is to provide a robust anddurable anchoring means for a camera suspended on a camera slider. Afeature of the invention is the use of durable and tough materials inthe construction of the anchoring means. An advantage of the inventionis that the anchoring means strongly resists movement by an anchoredcamera.

Still yet another object of the present invention is to provide multipleanchoring means to a camera suspended on a camera slider. A feature ofthe invention is a strap that can be used either as a stabilizing strapfor a camera sling by encircling the arm of a user and attaching to thesling or an anchoring means by attaching to a hanging camera. Anadvantage of the invention is that the user can configure the inventedcamera sling to be in a stable, photo-shooting configuration or quicklyconvert to an active movement, camera anchoring configuration.

A further advantage of the invention is that the camera does not have tobe manipulated into a specific or complicated position to utilize theanchoring means. Yet another advantage of the invention is that theanchoring means can be integrally integrated into the belt of a user orin an alternative embodiment can be reversibly detachable to the belt orbelt loop of a user.

An object of the invention is to provide an apparatus for limiting themovement of a dog or animal away from a user without requiring that auser hold the apparatus. A feature of the invention is a leash that canbe anchored to a portion of the user's body other than their hands. Anadvantage of the invention is that a user's dog or another animal can beanchored to them without encumbering their hands.

Another object of the invention is to provide a leash that isadjustable. A feature of the invention is an adjustment mechanism thatallows for adjustment of the invented leash for wearing in variouspositions on a user's body. An advantage of the invention is that asingle leash is provided that can be adjusted to be worn in variouspositions based on the needs of a user at a particular time to reflect aparticular preference.

Yet another object of the invention is to provide a leash attachmentthat can be added to various anchoring mechanisms. A feature of theinvention is its means for reversible attachment to existing anchoringmechanisms. An advantage of the invention is that the leash attachmentcan be temporarily added to an existing anchor point and removed at alater time. An additional advantage is that multiple leash attachmentscan be added to an existing anchor point.

Briefly, the invention provides An equipment sling with anchor pointcomprising: a first strap configured to overlay a shoulder of a user andextend downwardly across a front and back of said user toward a hip ofthe user opposite the overlaid shoulder; a secondary strap having afirst end and a second end, wherein the first end is in slidablecommunication with the first strap along a first length of the firststrap, and wherein the second end comprises means for reversibly fixingthe secondary strap to said equipment; and an anchoring mechanismreversibly attached to the second end of the secondary strap such thatthe first end of the secondary strap is in slidable communication alonga second length of the first strap, wherein the second length is shorterthan the first length.

Also provided is a method for limiting movement of equipment suspendedfrom a sling comprising: providing a shoulder sling having a primarystrap configured to overlay a shoulder of a user and extend downwardlyacross a front and back of said user toward a hip of the user oppositethe overlaid shoulder and equipment suspended from said primary strap bya secondary strap, wherein the secondary strap is in slidablecommunication with the primary strap; providing an anchoring mechanismthat reversibly limits a range of movement of the secondary strap alongthe primary strap when the anchoring mechanism is reversibly attached tothe secondary strap; and reversibly attaching said anchoring mechanismto said secondary strap.

The invention also provides A leash comprising: a length of strapextending between a first and second end along a longitudinal axis,wherein the strap is folded along said longitudinal axis to form a loopof strap having a diameter; a strap length adjustment mechanism attachedto the strap intermediate the loop and a terminating end of the strap,wherein the terminating end is attached to attachment hardwareconfigured to reversibly receive a collar of an animal; and a length ofslack strap extending between the adjustment mechanism and theterminating end.

Still further is provided A wearable leash comprising: a first strapconfigured to overlay a shoulder of a user and extend downwardly acrossa front and back of said user toward a hip of the user opposite theoverlaid shoulder; a first attachment point positioned on the firststrap where the first strap overlays an anterior portion of the user'sshoulder; a second attachment point positioned on the first strap wherethe first strap overlays a posterior portion of the user's shoulder; astabilizing strap having a length extending between a first end and asecond end, wherein each end of the stabilizing strap comprises a clip,wherein the clips are reversibly attached to the attachment points onthe first strap; and a leash attachment attached to the stabilizingstrap such that the leash attachment is in slidable communication alongthe length of the stabilizing strap, wherein the leash attachmentfurther comprises a terminating end having a means for attaching to acollar of an animal.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention together with the above and other objects and advantageswill be best understood from the following detailed description of thepreferred embodiment of the invention shown in the accompanyingdrawings, wherein:

FIG. 1A is a front view of a camera sling having two camerastabilization features, in accordance with the features of the presentinvention;

FIG. 1B is a back view of a camera sling having two camera stabilizationfeatures, in accordance with the features of the present invention;

FIG. 1C. is a detail view of a camera slider for a camera sling, inaccordance with the features of the present invention;

FIG. 1D is a rear view of an embodiment of a camera stabilizing device,in accordance with the features of the present invention;

FIG. 1E is a detail view of a waist-mounted camera stabilizing device,in accordance with the features of the present invention;

FIG. 1F is a rear view of a camera sling having two camera stabilizationfeatures, in accordance with the features of the present invention;

FIG. 2A is a perspective view of an adjustable animal leash, inaccordance with the features of the present invention;

FIG. 2B is a perspective view of an exemplary adjustment mechanism forthe invented adjustable leash, in accordance with the features of thepresent invention;

FIGS. 2C-2E depict various embodiments of an adjustable animal leash, inaccordance with the features of the present invention;

FIGS. 3A-C depict a schematic showing attachment and use of anadjustment mechanism, in accordance with the features of the presentinvention;

FIGS. 4A-4B depict an alternative embodiment of an adjustable animalleash, in accordance with the features of the present invention; and

FIG. 5 depicts another embodiment of an adjustable animal leash, inaccordance with the features of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The foregoing summary, as well as the following detailed description ofcertain embodiments of the present invention, will be better understoodwhen read in conjunction with the appended drawings.

As used herein, an element or step recited in the singular and precededwith the word “a” or “an” should be understood as not excluding pluralsaid elements or steps, unless such exclusion is explicitly stated.Furthermore, references to “one embodiment” of the present invention arenot intended to be interpreted as excluding the existence of additionalembodiments that also incorporate the recited features. Moreover, unlessexplicitly stated to the contrary, embodiments “comprising” or “having”an element or a plurality of elements having a particular property mayinclude additional such elements not having that property. As statedherein, “slidable communication” between two components means that onecomponent may slide along the longitudinal axis of the other.

The present invention is a novel apparatus for temporarily limiting themovement of a camera suspended from a harness or sling from camerasliders. The device may feature one or both of two different anchoringmeans at the same time. When in use, the anchoring means can be quicklydeployed to limit the movement of a hanging camera while a user isactive and can be quickly released to allow the camera to move freely.

While useful for attachment to a camera as shown and described herein,this use is exemplary and not meant to be limiting. The inventedapparatus can be used to support any equipment or device that can behung from a shoulder sling. Such equipment or devices include:binoculars, handbags, grocery bags, guns, water bottles, pet leashes,and tote bags. This list is exemplary and not meant to be limiting.

Device Detail

An exemplary embodiment of the invented device is shown in FIGS. 1A andB and designated as numeral 10. The device 10 includes a strap 12extending a length between a first end 14 and a second end 16 (shown inFIG. 1B). When worn by a user, the first end of the strap 14 overlays ananterior portion of the user's shoulder or chest and extends diagonallytherefrom toward the hip opposite the overlaid shoulder. The strap 12then extends diagonally upwardly over the back of the user to its secondend 16 that overlays a posterior portion of the user's shoulder or back.At the first and second ends of the 14, 16 of the strap, the strap isreversibly attached to D-Rings 42 that are disposed on both sides of ashoulder pad 38. The length of the strap 12 between its first and secondends can be any length and can be customized to fit any user.Preferably, the length of the strap between its first and second ends ispreferably between approximately 24 to approximately 48 inches in lengthand typically approximately 29 to approximately 39 inches.

In an alternative embodiment, the invented device does not feature theshoulder pad. In this alternative embodiment, hardware such as theaforementioned D-Rings are attached directly to the first strap 14. Forexample, in this alternative embodiment, D-Rings would be attached tothe first strap in the same position overlaying a user's body as theywould be if the shoulder pad was present. A person having ordinary skillin the art would readily understand that there are myriad ways to attachsuch hardware directly to the first strap.

As shown in FIG. 1A, a camera slider 18 depends from the strap 12. Thecamera slider 18 has a first end 20 and a second end 22, the first end20 in slidable communication with the length of the strap 12 and thesecond end 22 reversibly coupled to a camera attachment means 24. Thecamera attachment means may comprise any reversibly attachable clipsthat are robust enough to remain attached to a hanging camera. Exemplaryclips include quick-detach or quick-release clips, swivel shackles, snapshackles, and combinations thereof.

In an embodiment, the strap 12 is a single continuous strap.Alternatively, as shown in FIGS. 1A-B, the strap 12 actually comprisestwo straps that are joined together using apertures 17 in the straps andthe buckle 15 as described in U.S. patent application Ser. No.15/471,163 filed on Mar. 28, 2017, the entirety of which is incorporatedby reference herein, in order to provide the ability to adjust thelength of the camera sliders. The buckle 15 shown in FIGS. 1A-B is onlyan exemplary piece of hardware. In alternative embodiments, the buckle15 may be any piece of hardware suitable for adjusting the length of astrap such as a belt buckle or Conway buckle. The strap 12, may featurebelt loops 13 to manage any extra length of strap.

FIG. 1C is a detail view of a camera slider 18. As shown, the slider 18comprises a length of a secondary strap 23 that extends between thefirst 20 and second ends 22 of the slider 18. In this embodiment, thelength of strap 23 is a loop of material that is reversibly received bythe slider hardware 26 at the first end of the slider 20 and the ringportion 28 of the camera attachment means 24 at the second end of theslider 22. The slider hardware 26 receives both the strap portion 23 ofthe slider 18 and the larger strap 12 of device. When the sliderhardware 26 is in receipt of both the slider strap 23 and the largerstrap 12, this places the slider 18 in slidable communication with thestrap 12 such that the slider 18 can slide along the length of thelarger strap 12 of the device 10. In an embodiment, the camera slidersare fixed in length. The length of the sliders can be customized to anylength for any user. Preferably, the sliders are between approximately 2and approximately 9 inches in length. Typically, the sliders are betweenapproximately 3 and approximately 3 inches in length.

In an embodiment, the sliders 18 feature the apertures and buckle devicedescribed in U.S. patent application Ser. No. 15/471,163 filed on Mar.28, 2017, the entirety of which is incorporated herein, in order toprovide the ability to adjust the length of the camera sliders 18.

FIG. 1C shows the slider hardware 26 as a customized ring designed forthis use featuring a pentagonally shaped outer ring 32, wherein theinterior of the outer ring 32 is divided into two voids 34 by a mediallypositioned rib 36. Said medial rib 36 prevents friction between theslider strap 23 and the larger strap 12 of the device when the sliderslides along the strap. The pentagonal ring shown here is an exemplarypiece of hardware that is suitable for use as the slider hardware 26herein and not meant to be limiting. The slider hardware 26 may be anyshape and may have separate voids that respectively receive the largerstrap 12 and the slider strap 23. Alternatively, the slider hardware 26may only feature one void that receives both the larger strap 12 and theslider strap 23. Further, the slider hardware 26 can be made from anyrobust material that can support the weight of a camera 25. Suitablematerials include metal, plastic, wood, and combinations thereof.

As shown in FIG. 1C, the ring portion 28 of the camera attachment means24 receives the strap portion 23 of the slider 18. The camera attachmentmeans 24 may be any piece of hardware that can reversibly attach to anaccessory clip that is received by the tripod port on a camera 25.Suitable accessory clips include any lug and loop accessory clip thatscrews into the tripod port on a camera 25. Exemplary accessory clipsare the holdfast accessory clips sold by Holdfast Gear, LLC of TulsaOkla. When the invented device is in use, a camera 25 is attached to thecamera slider 18 via the attachment means 24. If a user is not using thecamera 25 and supporting it with their hands, the camera 25, in adefault position, hangs down at a user's side.

Returning to FIGS. 1A-B, the device 10 features a shoulder pad 38 thatoverlays the shoulder of a user while the device is worn. In theembodiment shown in FIGS. 1A-B, the shoulder pad 38 extends between afirst 40 and second end 41. Each end of the shoulder pad 38 features aD-ring 42 to which an end of the strap 12 reversibly attaches. Inalternative embodiments, the shoulder pad 38 is a substrate having twoapertures such that the strap 12 is received by the apertures such thatthe shoulder pad encircles the portion of the strap overlaying a user'sshoulder.

Looking to FIGS. 1A-B, the device 10 features a stabilizing strap 44.Said stabilizing strap comprises a strap extending between a first end46 and a second end 48, wherein the first and second ends both compriseclips 50. The clips 50 may comprise any reversibly attachable clips.Exemplary clips include quick-detach or quick-release clips, swivelshackles, snap shackles, and combinations thereof. In the configurationshown in FIGS. 1A-B, the stabilization strap 44 is in its stabilizingconfiguration wherein the clips 50 of the stabilization strap 44 arereversibly attached to both D-rings 42 on the shoulder pad 38. Thestabilizing configuration of the stabilization strap features thestabilization strap 44 extending between the two D-rings 42 and underthe arm of the user such that the stabilization strap and shoulder padencircle the user's arm. In this configuration, the stabilization strap44 minimizes movement of the whole device while in use.

The device 10 may feature another stabilizing feature 52 shown in FIG.1D. This stabilizing feature 52 is a strap 54 extending from the belt 56of a user to a terminal end 58 comprising a clip 60. Said strap 54 has afirst end 62 comprising a ring 64 that, is reversibly attachable to auser's belt 56. In an alternative embodiment, the ring 64 at the firstend 62 of the stabilizing feature is either integrally included in thebelt of a user or reversibly attached to the belt loop of a user.

FIG. 1E is a detail view of the stabilizing feature 52 shown in FIG. 1D.As shown, the stabilizing feature 52 comprises a strap 54 attached atits first end 62 to a waist attachment clip 64 and attached at itssecond end 66 to a camera attachment means 60. The waist attachment clip64 is similar to the slider hardware described above in that it featuresan outer ring 82 whose interior is divided into two voids 84 by a medialrib 86. One of the voids 85 receives the stabilizing feature's strap 54.A portion of the outer ring 82 surrounding the void 85 that receives thestrap 54 has a notch 88 that allows for the sliding of an object thinnerthan the width w of the notch to slide into the notch and into the void85. The waist attachment clip 64 is designed so that the notch 88 canreversibly receive the fabric of a user's waistband or belt 56. Thenotch can be made to have any width w to accommodate fabrics or leathersof any kind. Typically, the notch is between approximately ⅛ andapproximately ½ inch wide.

The notch 88 extends at an angle θ to the longitudinal axis α of thewaist attachment clip 64. The notch is designed to be non-parallel tothe longitudinal axis α of waist attachment clip 64 so that once thewaist attachment clip 64 is slid over a user's waistband or belt, thereceived fabric will not slide directly back out of the notch. Similarto the width of the notch, the angle θ can be customized to be any angleand is preferably between approximately 0 and approximately 90 degrees.Typically, the angle θ is between approximately 20 and approximately 45degrees.

A salient feature of the embodiment shown in FIG. 1E is the ability toutilize it with any existing camera sling or harness wherein a supportedcamera hangs free when not in use. Using the stabilizing feature shownin FIG. 1E, a user can place the feature on their belt and limit themovement of a camera hanging free from any sling or harness. Thestabilizing feature of FIG. 1E is amenable for use with existing systemswithout any need to modify those existing systems.

All straps discussed herein are made from any suitably robust material.Typical materials include leather, canvas, goretex, nylon, cotton,polyester, rubber, and combinations thereof. The shoulder pad describedabove is made from similar materials.

Anchoring Detail

When in use, the device provides a sling 10 configured to suspend acamera 25 secured to a camera slider. The device 10 allows a camera 25to freely slide along the length of its strap 12 on either end of theshoulder pad shoulder pad 38. In this position 100 as shown in FIG. 1A auser may hold the camera 25 and position it. When the user is notholding the camera 25, it hangs from the device 10 by the slider 18 in aposition near a hip of the user. If the user of the device then begins aperiod of active movement such as walking, running, climbing, or anyother activity that would jostle the freely hanging camera 25, he or shemay use the stabilization strap 44 of the device to anchor the camera 25and limit its movement to reach position 120 as shown in FIG. 1F.

In order to reach position 120 from the idle position where the camera25 hangs free, a user unclips the clip comprising the first end of thestabilization strap from the D-ring 42 on the chest side of the shoulderpad of the device. The user then moves the stabilization strap so thatit runs down their back and reversibly clips the free clip of thestabilization strap to the ring of the camera attachment means as shownin FIG. 1F. In position 120, the stabilization strap is a fixed lengthand therefore limits the movement of the hanging camera.

Once the position of the camera is limited in position 120, the user canthen free the camera 25 to be ready-to-shoot by disengaging the clip 50of the stabilization strap from the ring of the camera attachment means,running the stabilization strap under their arm and re-engaging thestabilization strap's free clip to the chest side D-ring 42. This placesthe device back into position 100.

Alternatively or in conjunction with the stabilization strap 44, thewaist mounted anchoring means 52 can be used to limit the movement of acamera hanging from a camera sling. As shown and discussed above, inposition 100, the device provides a camera 25 that is free to slidealong the length of the strap on either side of the shoulder pad. Wherea user desires to begin active movement, they may attach thebelt-mounted stabilizing feature 52 to the ring portion 28 of the cameraattachment means 24 to move into the stabilized position 130 as shown inFIGS. 1B and 1D.

In the stabilized configurations shown in FIGS. 1B, D, and F, thestabilizing strap 44 or belt-mounted stabilizing feature 52 limitjostling and movement of the camera while a user actively moves whilethe camera 25 hangs during walking, hiking, climbing or other activeperiods. These stabilizing features prevent damage to the camera 25 andaccessories by limiting large and fast movements. The stabilizingfeatures further prevent the full weight of a camera and a lens fromrepeatedly striking the user, preventing potential bruises, irritation,and lacerations.

Both stabilization features shown and discussed above prevent movementof a secured camera 25 (positions 120 and 130) beyond an alloweddistance as controlled by the fixed length of either stabilizingfeature. Preferably, once the invented device is in a stabilizingconfiguration (120 and 130), the camera can only move a maximum ofbetween approximately one and approximately six inches away from an idlehanging position. Typically, the camera is not allowed to move more thanapproximately three inches when in a stabilized configuration. Thesefigures are exemplary and not meant to be limiting. The movement of thecamera in a stabilized position can be customized by lengthening thestabilizing features (either the stabilizing strap or the waist-boundstabilizing feature). For example, a photographer using the inventeddevice with a heavy camera/lens configuration may desire that the camerabe allowed to move less than the distances cited above. In such a case,the lengths of either stabilizing feature can be customized to achievethe desired movement of the camera in a stabilized configuration.

A salient feature of the invention is the ability to rapidly engage astabilization feature to a free-hanging camera when minimized swingingof the camera is desired. For example, using any embodiment of thestabilization feature, only one step is needed to engage a free clip onthe end of the stabilization means to the camera attachment means of thecamera slider. Such an engagement step can be performed rapidly usingone hand. Similarly, the stabilization means can be released from thecamera attachment means using one hand and one step to release the clipof the stabilization means from the camera attachment means.

As will be understood by one skilled in the art, for any and allpurposes, particularly in terms of providing a written description, allranges disclosed herein also encompass any and all possible subrangesand combinations of subranges thereof. Any listed range can be easilyrecognized as sufficiently describing and enabling the same range beingbroken down into at least equal halves, thirds, quarters, fifths,tenths, etc. As a non-limiting example, each range discussed herein canbe readily broken down into a lower third, middle third and upper third,etc. As will also be understood by one skilled in the art all languagesuch as “up to,” “at least,” “greater than,” “less than,” “more than”and the like include the number recited and refer to ranges which can besubsequently broken down into subranges as discussed above. In the samemanner, all ratios disclosed herein also include all subratios fallingwithin the broader ratio.

Leash Detail

The inventor has discovered further embodiments of the instant inventionthat can be used as animal leashes. These embodiments are shown in FIGS.2A, 4A, and 5 and described herein, with details of elements shown inother figures.

FIG. 2A shows a perspective view of a dog leash 200 comprising a strap202 having a length extending between first 204 and second 206 ends(second end 206 shown in FIG. 2B). The strap 202 is folded along itslongitudinal axis α-α to create a primary loop 210 defined by the strap.The first end 204 of the strap comprises a terminating end 209. Collarattachment hardware 212 is fixed to the terminating end 209.

The collar attachment hardware 212 can be any reversibly attachableclips that are robust enough to remain attached to an animal's collar.Exemplary collar attachment means include quick-detach or quick-releaseclips, swivel shackles, snap shackles, and combinations thereof. Thecollar attachment hardware may comprise any reversibly attachable clipsthat are robust enough to remain attached to a hanging camera. Exemplaryclips include quick-detach or quick-release clips, swivel shackles, snapshackles, and combinations thereof.

The leash 200 features a loop diameter adjustment mechanism 214positioned intermediate a primary loop of strap 210 having a diameter Dand the terminating end 209 of the strap. A fully assembled leash 200features a slack portion 216 of strap 202 extending a length/between theterminating end 209, and the adjustment mechanism discussed below 214.The adjustment mechanism comprises hardware to reversibly fix thediameter D of the primary loop 210 of the leash 200 and the length ofthe slack portion of the strap.

A salient feature of this embodiment 200 is the loop diameter adjustmentmechanism 214. The adjustment mechanism 214 and its interaction with thestrap 202 are shown in FIGS. 3A-C. In an embodiment, the adjustmentmechanism is a semi-circular ring 300 whose interior is divided into afirst void 302

and a second void 304 by a medially positioned rib 306. The mediallypositioned rib 306 has a superior surface (upward facing in FIG. 2B) 308and depending surface (downward-facing in FIG. 2B) 310.

In use, the second end 206 of the strap 202 is attached to or securedadjacent to the depending surface 310 of the medially positioned rib.FIG. 3B shows an attachment configuration wherein opposite ends 312 and314 of a second strap 316 are inserted into opposite voids 302, 304 ofthe adjustment mechanism until there is little to no slack in the secondstrap. When the ends of the second strap 316 are fully inserted into theadjustment mechanism 214, they are fixed to opposing sides 318, 320 ofthe primary strap 202 using fastening members 321. Any hardware capableof joining two portions of trap is suitable for use as fasteningmembers. Exemplary hardware are rivets, nails, screws, and combinationsthereof.

When the second strap ends 312, 314 are secured to the primary strap202, the first end 204 of the primary strap is fed into the first void302 of the adjustment mechanism, over the superior surface 308 of themedially positioned rib 306 and into the second void 304 of theadjustment mechanism. A user can then reversibly insert as much of theprimary strap's length as desired into the second void of the adjustmentmechanism. As shown in FIG. 3C, the length of strap between the secondend of the primary strap and where the strap enters the first void ofthe adjustment mechanism defines the primary loop of the strap. Thelength of strap exiting the second void of the adjustment mechanism isthe slack length 216.

In the exemplary embodiment of FIGS. 3A-C, the combined depth of theprimary and secondary straps stacked on top of each other is sufficientto cause friction with the semicircular ring comprising the buckle. Thefriction generated between the straps and buckle is sufficient tomaintain the diameter D of the primary loop of strap 210 and length ofslack strap 216 without intervention of the user. The friction issufficient to maintain the diameter D and length of slack strap evenwhen the instant invention is in use and attached to a dog. At the sametime, a user can quickly manipulate the strap 202 and adjustmentmechanism to change the diameter D and length of slack strap 216.

While use of a second strap to attach or maintain the second end of theprimary strap adjacent to the depending surface of the mediallypositioned rib is shown and described herein, this is an exemplaryattachment means and not meant to be limiting. Any suitable materials ormethods can be used to attach or position the second end of the primarystrap adjacent to the medially positioned rib of the adjustmentmechanism. As discussed below, this configuration enables a user toeasily increase the diameter of the primary loop of strap and reduce theslack length or vice versa. Exemplary materials and methods includegluing, welding, and a combination thereof.

FIGS. 3A-C shows a cinch shackle as an exemplary adjustment mechanism214. Any hardware capable of receiving the ends of the strap andreversibly engaging with the strap to fix the diameter of the primaryloop and the slack portion of the strap is suitable for use as anadjustment means. A person having ordinary skill in the art willunderstand that the structural configuration between the strap andadjustment mechanism will vary depending on the adjustment mechanismused. FIG. 2B shows a detail view of a cinch shackle. In use, a user canadjust the diameter of the main loop of strap and the slack lengthhowever they choose to accommodate their preferences. Using theadjustment mechanism, the strap 202 can be interchangeably placed intothree different configurations as shown in FIGS. 2C-2E.

FIG. 2A shows the adjustment mechanism 214 as a cinch shackle. Suitablecinch shackles are the square shackle available from the CN Dyne Companyof Dongying, China. The adjustment mechanism reversibly engages thestrap. After engagement, it reversibly fixes the diameter of the primaryloop of strap 210 and provides a user with the ability to adjust saiddiameter. In use, the wearer of the leash 210 can interact with andreversibly disengage the adjustment mechanism and pull a portion of theslack length of the strap through the mechanism 214 to make the diameterof the primary loop D bigger. Alternatively, a user can interact withand reversibly disengage the adjustment mechanism and reduce thediameter D of the loop of the strap by pulling the terminating end 209of the strap. A suitable adjustment means can receive the ends of thestrap 202 and reversibly engage with the strap such that the length l ofthe slack portion and diameter of the primary loop are fixed. A user canreversibly disengage said adjustment mechanism to allow for adjustmentof the diameter of the primary loop of strap and the length of the slackportion of strap. Suitable alternative adjustment means include doubleloops , sliders, cinch buckles, slip locks, and combinations thereof.

FIG. 2C shows the strap 200 in a first configuration 220. Thisconfiguration 220 features the strap 200 worn in a shoulder-slingconfiguration in which the strap extends diagonally from one shouldertoward the hip opposite the overlaid shoulder. As shown in FIG. 2C, inthis first configuration 220, the adjustment mechanism is positionedadjacent to the hip of the user with the slack portion of the straphanging therefrom.

In this shoulder sling configuration, a user can reversibly attach thecollar attachment hardware 212 to attachment hardware 222 on the collar224 worn by a dog or other animal 226. Any hardware suitable fortemporary engagement to the collar attachment hardware is suitable.After attachment of the attachment hardware 212 on the strap to thecollar of an animal, the animal is free to move with or relative to auser of the strap. When the collar 224 of an animal is attached to theattachment hardware on the strap, the animal is prevented from movingfarther away from the user of the strap than the length of the slackportion of the strap and is thus prevented from running away from orstraying too far away from a user. At the same time, the attached animalcan move along with the user of the strap while walking, running,hiking, or any other sort of activity regardless of the vigorousness ofthe user's movement.

In this configuration, the shoulder of the user prevents the strap fromsliding downwardly along the trunk of the user. As mentioned above, auser can adjust the diameter of the primary loop of the harness to anylength desired. This feature can be used by a wearer of the shouldersling configuration to make the strap fit as tightly around theirshoulder, chest, and back as they desire. The tighter the user makes theharness around their body, the less the strap will move on the user'sbody. A user may desire to make the harness tight enough to preventlateral movement of the strap into user's neck in response to movementof an attached animal. After attachment to the shoulder harness to ananimal's collar, an animal can be reversibly released from attachment tothe strap by releasing the attachment hardware 212 on the strap from theattachment hardware 222 on the collar 224 of the animal.

In another embodiment 230 as shown in FIG. 2D, a user places the primaryloop of the strap over their head, and then shoulders and positions thestrap such that the primary loop of the strap extends approximatelyhorizontally around a user. In this configuration, a user may tighten(reduce the diameter of the primary loop of the strap) such that thestrap fits snugly around the trunk of the user. A user may position thetightened strap to extend horizontally across their body at any positionalong their trunk, including around the wearer's waist. Preferably, thestrap is positioned along a user's trunk at any position superior to thehips such that the lateral protrusion of the hip bones prevents thestrap from being pulled downward farther than the hips of the user. Forexample, a user can position the horizontally positioned strap 230 sothat the strap overlays the user's waist, or, alternatively, sits justsuperior to their hips.

Similarly to the shoulder-sling embodiment shown in FIG. 2C, in use, auser attaches the attachment hardware of the strap to the attachmenthardware 222 on the collar 224 of a dog or other animal. As with theembodiment featured in FIG. 2C, an animal attached to the horizontallypositioned strap is prevented from moving farther away from a user thanthe length of the slack portion of the strap. However, as with theshoulder-sling embodiment above, an animal reversibly attached to thehorizontally worn version of the strap is free to move with the user ofthe strap and can be reversibly released from the strap wheneverdesired.

A third embodiment 240 of the strap shown in FIGS. 2A-D is depicted inFIG. 2E. In this embodiment, a user uses the adjustment mechanism on thestrap to reduce the diameter of the primary loop of strap to provide agreater slack length than in either the shoulder or horizontally wornconfigurations and a primary loop smaller in diameter than in theabove-embodiments. This third embodiment can be adjusted to fit thewrist or hand of a user similar to conventional leashes. Similarly tothe above-described embodiments, this embodiment 240 can be reversiblyattached to the collar of a dog or other animal such that the distancean animal can move away from a user is limited by the length of theslack portion of the strap.

An advantage of the strap shown in FIGS. 2A-E is that a user can use thestrap to reversibly anchor a dog or other animal to their person whenthe attachment hardware on the strap are attached to the attachmenthardware on an animal's collar but can also use the strap to reversiblyanchor the dog to stationary objects of varying diameters or evenirregularly stationary objects. As such, a user can adjust the length ofthe diameter of the primary loop of strap to fit a stationary object ofany size or configuration should a user desire to reversibly limit themovement of a dog or animal attached to the strap away from said object.

While FIGS. 2A-E are described as various embodiments of a dog leashdesign, the adjustment mechanism utilized allows for a user to adjustthe diameter of the primary loop of strap and length of the slackportion of the strap at will. This allows for a user to quickly adjustthe strap to and between the configurations shown in FIGS. 2A-E or anyother configuration desired.

FIGS. 4A-4B depict a leash 350 for use with the shoulder sling shown inFIGS. 1A, 1B, and 1F. This leash 350 is configured for use with theshoulder sling of FIGS. 1A, 1B, and 1F, wherein the stabilizing strap 44features a leash attachment 352 that is in slidable communication alongthe length of the stabilizing feature between its first 46 and secondends 48. In this configuration, the stabilizing strap 44 is received byslider hardware 354, wherein the strap 202 comprising the leashattachment 352 is also received by the slider hardware 354. As shown inFIG. 3A, the slider hardware is a square shackle available from the CNDyne Company of Dongying, China. The square shackle is exemplary and notmeant to be limiting. Any hardware suitable for receiving thestabilizing strap, the leash attachment, and allowing the leashattachment to slide along the length of the stabilizing strap issuitable. Exemplary slider hardware includes D rings, O Rings, RollerBuckles, Center Bar Buckles, Metal Loops, Double Loops, Snap Shackles,and combinations thereof.

FIG. 4B shows a detail view of the leash attachment 352. Looking to FIG.4B, the leash attachment 352 is nearly identical in structuralconfiguration to the leash shown in FIGS. 1A-1B but for the addition ofthe slider hardware 354 to the primary loop 210 of the leash attachment.As mentioned above, the slider hardware 354 receives the primary loop ofstrap 210 of the leash attachment 352. With the strap of the leashattachment inserted into the slider hardware, the slider hardware canfreely slide along the length of strap defining the primary loop 210 ofthe leash attachment until it comes into contact with the adjustmentmechanism 214.

A user wearing the leash embodiment 350 depicted in FIGS. 4A-4B user canconnect the collar attachment hardware 212 to the attachment hardware214 on the collar 224 of a dog or other animal. Once the animal is thusconnected to the leash, the animal is prevented from moving farther thanthe total length line a-a of the leash attachment when it is pulledcompletely taught. When desired, the animal can be released from theleash 350 by disconnecting the collar attachment hardware 212 from theattachment hardware 222 on the animal's collar.

Leash embodiment 350 is shown as used with the shoulder sling shown inFIGS. 1A-1B. This is exemplary and not meant to be limiting. When, asshown in FIG. 4A, the leash embodiment is configured as shown with thestabilizing strap 44 slidably engaged to the slider hardware 354, theends of the stabilizing strap 44 can be clipped to any suitableattachment point or hardware by using the clips 50 at each end of thestabilizing strap. The slider hardware acts as anchoring hardware.

Similarly, the slider hardware on the leash attachment 352 is suitablefor receipt of any strap or desired hardware. A person having ordinaryskill in the art will see that the leash attachment 352 can be slidablyreceived by any strap having a length. Or alternatively, a user canattach various hardware to the slider hardware 354 on the leashattachment 352 wherein that hardware may or may not be movable.

An alternative leash attachment 400 to that shown in FIG. 3A is shown inFIG. 5 . This embodiment features slider hardware 402 allowing forreversible attachment to the stabilizing strap 44 of the shoulder slingshown in FIG. 1A-1B. The exemplary embodiment shown in FIG. 5 shows theslider hardware as the ring 64 with notch 88 shown in FIG. 1E anddescribed above. Using the leash configuration 400 shown in FIG. 5 , auser can reversibly insert the stabilizing strap 44 into the notch 88 ofthe ring 64 comprising the slider hardware. An advantage of thisconfiguration is that the leash 400 can be reversibly attached to thestabilizing strap of the invented shoulder sling or any other fabric orobject that can fit within the notch of the ring 88. An animal can beanchored to any strap, device, or object that can be received by theslider hardware 402. Objects suitable for attachment to the hardware 402can be called anchoring objects. Additionally, the slider hardware ofthis embodiment 400 can be used to reversibly attach to metal hardwaresuch as the D-Rings 42 discussed above or belt-mounted hardware such asa metal ring integrally attached to a user's belt. An additionaladvantage of this leash embodiment is that a user can connect as manyleash attachments as desired to a receiving device or multiple receivingdevices. For example, a user of the shoulder sling shown in FIGS. 1A-1Bcan attach a plurality of the leash attachments 400 shown in FIG. 5 tothe stabilizing strap 44 of the shoulder sling. A user of this leashattachment 400 can attach as many individual leash attachments 400 to adesired attachment point or object. This feature is advantageous for auser that has more than one animal to leash using the leash attachment400 or a user that leashes a different number of animals at differenttimes.

FIG. 5 shows the leash attachment 400 as using the notched ring 64 shownas the means to reversibly attach the leash attachment 400 to anattachment point. This is meant to be exemplary and non-limiting. Anyhardware capable of reversibly attaching to fabric, d-rings, circularmetal rings or other attachment points are suitable for use asattachment means in the embodiment 400 shown in FIG. 5 . Exemplaryattachment means include quick-detach or quick-release clips, swivelshackles, snap shackles, and combinations thereof.

Any leash embodiment shown and discussed in the instant application canuse more than one adjustment mechanism. For example, the embodimentsshown in FIGS. 2A-E, 4A-B, and 5 feature a primary adjustment mechanismfor setting the diameter of the loop of strap. A user can add anotheradjustment mechanism to a deployed leash such that the primaryadjustment mechanism roughly sets the diameter of the loop of the strap,and wherein the user installs a secondary adjustment mechanism to morefinely adjust the diameter of the loop of strap. A suitable secondaryadjustment mechanism is the stabilizing mechanism 52 shown in FIG. 1Eand described above. In this embodiment, a user can attach the clip 60of the stabilizing feature 52 to the leash such that the clip receivesboth ends of the strap 202 before it enters the adjustment mechanism(i.e. the clip is positioned intermediate the user and the adjustmentmechanism). In this configuration, the user can slide the stabilizingfeature 52 toward or away from themselves to finely tune the diameter ofthe primary loop. This feature can be used to assure that any of theleash embodiments fit tightly against a user's hip, waist, or wrist.

The leash embodiments shown in FIGS. 2A-2E, 4A-4B, and 5 are all shownhaving adjustment mechanisms. One having ordinary skill in the artunderstands that any of the leash embodiments described herein and shownin the accompanying drawings can be made to a user's specification andwithout an adjustment mechanism. In configurations without adjustmentmechanisms, the diameter of the primary loops of strap and lengths ofslack strap are fixed and cannot be adjusted.

All leash embodiments discussed herein share a salient feature ofoffering hands-free use. Every leash shown in the figures and discussedabove allows for a user to limit the movement of a leashed dog oranother animal without requiring that the user to hold the leash. Eachembodiment provides for a leash that can be attached to an attachmentpoint on a person, a person's clothing, or an object that then leavesthe user's hands both free and available to perform other tasks whilethe dog or other animal is leashed.

One skilled in the art will also readily recognize that where membersare grouped together in a common manner, such as in a Markush group, thepresent invention encompasses not only the entire group listed as awhole, but each member of the group individually and all possiblesubgroups of the main group. Accordingly, for all purposes, the presentinvention encompasses not only the main group, but also the main groupabsent one or more of the group members. The present invention alsoenvisages the explicit exclusion of one or more of any of the groupmembers in the claimed invention.

The invention claimed is:
 1. A leash comprising: a length of strapextending between a first and second end along a longitudinal axis,wherein the strap is folded along said longitudinal axis to form a loopof strap having a diameter; a strap length adjustment mechanism attachedto the strap intermediate the loop and a terminating end of the strap,wherein the terminating end is attached to attachment hardwareconfigured to reversibly receive a collar of an animal, and theadjustment mechanism having a length fixing configuration and anadjustment configuration, wherein the length fixing configuration isconfigured to prevent changes in the lengths of the loop of strap andthe length of slack strap, and wherein the adjustment configuration isconfigured to allow for adjustment of the diameter of the loop of strapand the length of slack strap, and the adjustment mechanism comprising ameans for toggling between its length fixing and adjustmentconfigurations; and a length of slack strap extending between theadjustment mechanism and the terminating end.
 2. The leash of claim 1wherein the leash has a waist-worn configuration wherein the loop ofstrap encircles a user trunk in a position intermediate the user's hipsand arms of said user.
 3. The leash of claim 2 wherein the leash has ashoulder-sling configuration wherein the loop of strap overlays ashoulder of the user and extends downwardly across a front and back ofsaid user toward the hip of the user opposite the overlaid shoulder. 4.The leash of claim 3 wherein the leash has a wrist-worn configurationwherein the loop of strap encircles the wrist of a user.
 5. The leash ofclaim 4 wherein the adjustment mechanism provides a mechanism toreversibly interchange between the waist-worn, shoulder-sling, andwrist-worn configurations.
 6. The leash of claim 3 further comprising ananchoring hardware encircling the strap comprising the loop of strap,wherein the anchoring hardware is in slidable communication along acircumference of the loop of strap.
 7. The leash of claim 6 wherein theanchoring hardware is configured to reversibly receive an anchoringobject.
 8. The leash of claim 7 wherein the anchoring object is a straphaving a length and wherein the anchoring clip is in slidablecommunication along the length of said strap when the strap is receivedby the anchoring clip.
 9. The leash of claim 8 wherein the anchoringobject is hardware integrally associated with the user's belt.
 10. Theleash of claim 1 wherein said leash is hands-free.
 11. A shoulder slingfor carrying equipment and reversibly limiting the movement of theequipment, comprising: a first strap configured to overlay a shoulder ofa user and extend downwardly across a front and back of said user towarda hip of the user opposite the overlaid shoulder; a first attachmentpoint positioned on the first strap where the first strap overlays ananterior portion of the user's shoulder; a second attachment pointpositioned on the first strap where the first strap overlays a posteriorportion of the user's shoulder; a second strap configured to attach thefirst attachment point on one end and extend diagonally upwardly overthe back of the user to attach on the second attachment point; and oneof the two or both of the stabilizing features as following: the firststabilizing feature comprising a stabilizing strap having a lengthextending between a first end and a second end, wherein each end of thestabilizing strap comprises a clip, wherein the clips are reversiblyattached to the attachment points on the first strap; and the secondstabilizing feature comprising an anchoring object integrally associatedwith the user's belt, wherein the anchoring object is in slidablecommunication along the length of the user's belt at its first end andattaches to the equipment at its second end.
 12. A wearable leashattachment attached to a stabilizing strap such that the leashattachment is in slidable communication along the length of thestabilizing strap, wherein the leash attachment further comprises aterminating end having a means for attaching to a collar of an animal,and the wearable leash attached comprising: a length of strap extendingbetween a first and second end along a longitudinal axis, wherein thestrap is folded along said longitudinal axis to form a loop of straphaving a diameter; a strap length adjustment mechanism attached to thestrap intermediate the loop and a terminating end of the strap, whereinthe terminating end is attached to attachment hardware configured toreversibly receive a collar of an animal, and the adjustment mechanismhaving a length fixing configuration and an adjustment configuration,wherein the length fixing configuration is configured to prevent changesin the lengths of the loop of strap and the length of slack strap, andwherein the adjustment configuration is configured to allow foradjustment of the diameter of the loop of strap and the length of slackstrap, and the adjustment mechanism comprising a means for togglingbetween its length fixing and adjustment configurations; and a length ofslack strap extending between the adjustment mechanism and theterminating end.
 13. The second strap of claim 12 wherein the length ofthe second strap is adjustable to fit the user.
 14. The second strap ofclaim 12 wherein an equipment slider is in slidable communication withthe second strap at the first end and reversibly coupled to anequipment.
 15. The second stabilizing feature of claim 14 comprising awaist attachment clip at the first end wherein the waist attachment canreversibly receive the user's waistband or belt, where the equipment isstabilized when the waist attachment is clipped at the user's belt andfree to move after the waist attachment is unclipped.
 16. The wearableleash in claim 15 wherein a slider hardware that is in slidablecommunication along the length within the loop of the wearable leash andeither reversibly or irreversibly communicate with the stabilizingstrap.
 17. The first stabling feature of claim 14 wherein the ends ofthe stabling strap may be reversibly changed in two positions byclipping one of the ends on either the first strap or the equipmentslider, where the equipment is stabilized when clipping to the equipmentslider and free to move after the feature is unclipped to the equipmentslider.
 18. The stabling features of claim 14 wherein said features arehands-free.
 19. The leash of claim 12 wherein said leash is hands-free.